Pseudomonas Aeruginosa in Trinkwassersystemen: 1.Wachstumsansprüche und Gegenmassnahmen 2. Belastung von Wasserzählern
In: Veröffentlichungen aus dem DVGW-Technologiezentrum Wasser 73
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In: Veröffentlichungen aus dem DVGW-Technologiezentrum Wasser 73
In: Veröffentlichungen aus dem Technologiezentrum Wasser Karlsruhe Band 77
Innovative solutions and planning tools for safe drinking water supply and sustainable wastewater management are the focus of the TRUST project. In many prosperous regions of the world population and economic growth in combination with competing water demand often lead to water scarcity, i.e. higher abstraction than natural regeneration. TRUST tackles this challenge by combining satellite-based remote sensing techniques, microbiological and chemical monitoring and water balance modelling with decision support tools, water supply and wastewater management concepts and inclusive procedures for the conflict analysis of interests and goals. The focus area of the project is the Lurín catchment in Lima/Peru. In strong cooperation with local partners (Peruvian water authority, water company of Lima and communities in the upper and lower catchment area) the developed tools and concepts are implemented and tested for their transferability to other regions. The main findings so far include the development of innovative and integrative water supply, wastewater disposal, treatment and reuse concepts for the upper and lower catchment area. These concepts will be evaluated using SDG indicators, national standards and criteria determined through participatory processes involving local stakeholders. This will create concepts for access to safe drinking water and wastewater disposal that are tailored to local hydrological, geographical, social, cultural and political ...
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Drinking water quality has been regulated in most European countries for nearly two decades by the drinking water directive 98/83/EC. The directive is now under revision with the goal of meeting stricter demands for safe water for all citizens, as safe water has been recognized as a human right by the United Nations. An important change to the directive is the implementation of a risk-based approach in all regulated water supplies. The European Union Framework Seventh Programme Aquavalens project has developed several new detection technologies for pathogens and indicators and tested them in water supplies in seven European countries. One of the tasks of the project was to evaluate the impact of these new techniques on water safety and on water safety management. Data were collected on risk factors to water safety for five large supplies in Denmark, Germany, Spain and the UK, and for fifteen small water supplies in Scotland, Portugal and Serbia, via a questionnaire aiming to ascertain risk factors and the stage of implementation of Water Safety Plans, and via site-specific surveys known as Sanitary Site Inspection. Samples were collected from the water supplies from all stages of water production to delivery. Pathogens were detected in around 23% of the 470 samples tested. Fecal contamination was high in raw water and even in treated water at the small supplies. Old infrastructure was considered a challenge at all the water supplies. The results showed that some of the technique, if implemented as part of the water safety management, can detect rapidly the most common waterborne pathogens and fecal pollution indicators and therefore have a great early warning potential; can improve water safety for the consumer; can validate whether mitigation methods are working as intended; and can confirm the quality of the water at source and at the tap.
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In: Gunnarsdottir , M J , Gardarsson , S M , Figueras , M J , Puigdomènech , C , Juárez , R , Saucedo , G , Arnedo , M J , Santos , R , Monteiro , S , Avery , L , Pagaling , E , Allan , R , Abel , C , Eglitis , J , Hambsch , B , Hügler , M , Rajkovic , A , Smigic , N , Udovicki , B , Albrechtsen , H-J , López-Avilés , A & Hunter , P 2020 , ' Water safety plan enhancements with improved drinking water quality detection techniques ' , Science of the Total Environment , vol. 698 , 134185 . https://doi.org/10.1016/j.scitotenv.2019.134185
Drinking water quality has been regulated in most European countries for nearly two decades by the drinking water directive 98/83/EC. The directive is now under revision with the goal of meeting stricter demands for safe water for all citizens, as safe water has been recognized as a human right by the United Nations. An important change to the directive is the implementation of a risk-based approach in all regulated water supplies. The European Union Framework Seventh Programme Aquavalens project has developed several new detection technologies for pathogens and indicators and tested them in water supplies in seven European countries. One of the tasks of the project was to evaluate the impact of these new techniques on water safety and on water safety management. Data were collected on risk factors to water safety for five large supplies in Denmark, Germany, Spain and the UK, and for fifteen small water supplies in Scotland, Portugal and Serbia, via a questionnaire aiming to ascertain risk factors and the stage of implementation of Water Safety Plans, and via site-specific surveys known as Sanitary Site Inspection. Samples were collected from the water supplies from all stages of water production to delivery. Pathogens were detected in around 23% of the 470 samples tested. Fecal contamination was high in raw water and even in treated water at the small supplies. Old infrastructure was considered a challenge at all the water supplies. The results showed that some of the technique, if implemented as part of the water safety management, can detect rapidly the most common waterborne pathogens and fecal pollution indicators and therefore have a great early warning potential; can improve water safety for the consumer; can validate whether mitigation methods are working as intended; and can confirm the quality of the water at source and at the tap.
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